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Ali J. Chamkha
Researcher at King Abdulaziz University
Publications - 1064
Citations - 40575
Ali J. Chamkha is an academic researcher from King Abdulaziz University. The author has contributed to research in topics: Heat transfer & Nanofluid. The author has an hindex of 88, co-authored 901 publications receiving 27550 citations. Previous affiliations of Ali J. Chamkha include American University of Ras Al Khaimah & Prince Mohammad bin Fahd University.
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Hydrothermal behavior of micro-polar Nano-Encapsulated phase change materials (NEPCMs) in an inclined L-shaped cavity
Mohamad Sadegh Sadeghi,Ali J. Chamkha,Rifaqat Ali,Mohamed Bechir Ben Hamida,M Ghodrat,Ahmed Galal +5 more
TL;DR: In this article , the authors investigated the natural convection and entropy generation of the nano-encapsulated phase change materials (NEPCMs) in an inclined L-shaped cavity and found that the Stefan number, micro-rotation parameter and non-dimensional fusion temperature have a negative impact on NC heat transfer of NEPCMs and reduce the Nu avg up to 25, 42, and 15% respectively.
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Analytical Solutions for Hydromagnetic Free Convection of a Participate Suspension from an Inclined Plate with Heat Absorption
Hasan M. Ramadan,Ali J. Chamkha +1 more
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MHD buoyancy‐driven flow in a nanoliquid filled‐square enclosure divided by a solid conductive wall
Tahar Tayebi,Ali J. Chamkha +1 more
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Graphene-gold/PDMS Maxwell hybrid nanofluidic flow in a squeezed channel with linear and irregular radiations
TL;DR: In this paper , the authors investigated the thermal transport of a hybrid nanofluid made of graphene, gold/polydimethylsiloxane between two squeezing plates, and found that the skin friction and heat transfer rates under the influence of certain oriented parameters are numerically analysed and presented in tabular form.
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Effects of heat transfer, body acceleration and hybrid nanoparticles (Au–Al2O3) on MHD blood flow through a curved artery with stenosis and aneurysm using hematocrit-dependent viscosity
TL;DR: In this article , the authors investigated the heat transfer and body acceleration effects on unsteady MHD blood flow through a curved artery in the presence of stenosis and aneurysm using hybrid nanoparticles (Au−Al2O3/blood).